Energy Storage at the Distribution Level

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Energy Storage at the Distribution Level – Technologies, Costs and Applications

2.3.4 Peak-shaving or Overload Management of Distribution Transformers The role of battery energy storage systems (BESS) thus becomes important for distribution network applications such as voltage regulation and peak shaving. With high summer peaks, distribution networks with high penetration of solar rooftop PV systems (SRPV) tend to have a low load factor. This has an impact on the rate of loss-of-life of equipment, especially distribution transformers (DTs) and thus for such feeders, the non-reduction in augmentation/replacement costs on these components offsets the benefits of load reduction through SRPV. Certain factors affect the health/ life of DTs: (1) Overloading, (2) non-linear load operation, and (3) poor maintenance. Overloading is a major cause of DT failure (failure rate in India is around 12–15%), particularly, in urban areas where the population growth is high. The overloading of a DT can be prevented by the deployment of BESS at its secondary side, thus preventing DT augmentation. This section discusses the need for BESS at the distribution level to defer investments on DT augmentation and reduce DT failure while increasing the DT life. This application along with energy arbitrate could make BESS viable at the distribution level. A control logic developed for the battery monitoring system along with a detailed cost-benefit analysis under various scenarios has been reported in this section. The assessment of overloading depends on how DISCOM defines overloading and under what conditions DISCOM looks for alternatives. The distribution utility considers in this section identifies a transformer to be overloaded if its loading is greater than or equal to 120% of the rated capacity for consecutive two hours for any 7 days in a month. As a measure, the utility traditionally adopts the following steps to resolve the persistent overloading on any of the existing DTs: »

Load shifting through LT network: Shifting a certain amount of load to other existing DTs on the feeder.

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Capacity addition by installing new DT: If the load cannot be transferred to the nearby DTs due to LT network congestion, then a strategic location is identified to install a new DT near a common load center of the overloaded DT. The new transformer will not only relieve the concerned overloaded DT but will also provide better load management during an outage condition by supplying some parts of the area.

In case the above two options stand to be infeasible, the utility has to resort to the augmentation of the existing overloaded DT. This results in replacing the existing DT with another one of higher capacity. The initial step was to identify a suitable DT which is overloaded to establish the feasibility of installing a BESS to manage the overloading. A site survey was conducted in the utility licensee area and a particular DT was shortlisted based on its overloading status. Overloading of the DT was analyzed as per the criterion followed by the utility. However, a threshold of 80% of the rated capacity was taken as the change in demand pattern of DT in future years was not assessed under this study. The threshold of 80% of rated capacity was decided in consultation with the utility. The DT loading for any typical day has been shown in Figure 39.

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